Open Access“Developmental mechanics”: Cellular patterns controlled by adhesion, cortical tension and cell division
Author(s) -
Thomas Lecuit
Publication year - 2008
Publication title -
hfsp journal
Language(s) - English
Resource type - Journals
eISSN - 1955-2068
pISSN - 1955-205X
DOI - 10.2976/1.2896332
Subject(s) - turing , morphogenesis , cognitive science , computer science , development (topology) , developmental biology , epistemology , data science , biology , microbiology and biotechnology , philosophy , psychology , mathematics , programming language , mathematical analysis , biochemistry , gene
How embryos are shaped during development has inspired the work of many, embryologists, geneticists, but also mathematicians such as Turing, and physicists. Despite the inherent complexity of the problems it tackles, developmental biology has produced one of the most spectacular conceptual achievements, demonstrating that embryos are built with conserved molecules that orchestrate pattern and morphogenesis. As the logic of development now emerges, new challenges arise, such as how tissue mechanics is controlled. Quantitative approaches and computational models are essential to predict tissue organization and cell shapes. I review briefly how physical concepts have fueled this research in the past decades.
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